This document provides information on N30SH grade sintered neodymium iron boron magnets, including their magnetic, thermal, and mechanical properties. Key properties listed are a residual induction of 11,250 Gauss, intrinsic coercivity of 1,125 kA/m, and maximum energy product of 310 kJ/m3. Graphs show the magnet's demagnetization curves from -40°C to 150°C. These magnets offer high magnetic output at moderate cost and can be supplied with thermal stabilization or magnetic calibration to customer specifications.

1. N30SH Grade Sintered Neodymium Iron Boron Magnets
Characteristic Units C // C
Reversible Temperature Coefficients (1)
of Induction, α(Br) %/ºC
of Coercivity, α(Hcj) %/ºC
Characteristic Units min. nominal max. Coefficient of Thermal Expansion (2)
∆L/L per ºCx10
-6
7.5 -0.1
Gauss 10,800 11,250 11,700 Thermal Conductivity W / (m • K)
mT 1080 1125 1170 Specific Heat (3)
J / (kg • K)
Oersteds 10,200 10,700 11,200 Curie Temperature, Tc ºC
kA/m 811 852 891 psi
Oersteds 20,000 MPa
kA/m 1,592 Density g/cm3
MGOe 28 31 33 Hardness, Vickers Hv
kJ/m3
223 243 263 Electrical Resistivity,   • cm
Notes: (1) Coefficients measured between 20 and 150 ºC
(2) Between 20 and 200 ºC (3) Between 20 and 140 ºC
N30SH
Other
Properties
Flexural Strength
-0.535
41,300
7.6
7.5
620
MagneticProperties
460
180
ThermalProperties
These are also referred to as "Neo" or NdFeB magnets. They offer a
combination of high magnetic output at moderate cost. Please contact ALB
for additional grade information and recommendations for protective coating.
Assemblies using these magnets can also be provided.
HcB, Coercivity
BHmax, Maximum Energy Product
285
Br, Residual Induction
-0.120
HcJ, Intrinsic Coercivity
310
-40°C
20°C
60°C
80°C
100°C
120°C
150°C
180°C
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
024681012141618202224262830
Polarization,JFluxDensity,B
Demagnetizing Field, H
Grade: N30SH
0.1
0.3
0.5 10.75 21.5 3 5
0
0.2
0.4
0.6
0.8
1.0
1.2
kG Tesla
1.4
kOe
kA/m 1750 1275 160 01430 1115 955 795 640 475 3202070 1910 15902230
Pc = B H
1 kA/m = 12.566 Oe 1 kOe = 79.577 kA/m
Notes: The material data and demagnetization curves shown above represent typical properties that may vary due to product shape and size.
Magnets can be supplied thermally stabilized or magnetically calibrated to customer specifications.
Additional grades are available. Please contact the factory for information.
https://www.albmagnets.com/
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ALB Materials Inc E-mail: sales@albmagnets.com
Demagnetisation Curves